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Chemical beta-Lactams

1–50 of 131 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. 7-aminocephalosporanic acid response to oxidative stress 7-aminocephalosporanic acid affects response to oxidative stress 1: Homo sapiens Bronchi | Epithelial Cells | Cell Line
5 genes: GCLM | HMOX1 | NQO1 | SLC7A11 | TXNRD1
1
2. 7-aminocephalosporanic acid negative regulation of heart rate 7-aminocephalosporanic acid results in increased negative regulation of heart rate 1: Danio rerio Heart   1
3. 7-aminocephalosporanic acid regulation of heart looping 7-aminocephalosporanic acid results in decreased regulation of heart looping 1: Danio rerio Heart   1
4. Amoxicillin apoptotic process Amoxicillin results in increased apoptotic process 1: Mus musculus Corpus Striatum | Neurons   1
5. Amoxicillin apoptotic process BAX BAX affects the reaction [Amoxicillin results in increased apoptotic process] 1: Mus musculus Corpus Striatum | Neurons   1
6. Amoxicillin positive regulation of reactive oxygen species biosynthetic process Amoxicillin results in increased positive regulation of reactive oxygen species biosynthetic process 1: Homo sapiens Stomach | Cell Line, Tumor   1
7. Amoxicillin cell growth Amoxicillin affects cell growth 1: Homo sapiens Monocytes | Cell Line   1
8. Amoxicillin developmental process Amoxicillin affects developmental process 1: Danio rerio Embryo, Nonmammalian   1
9. Amoxicillin glutathione transferase activity Amoxicillin results in decreased glutathione transferase activity 1: Danio rerio Embryo, Nonmammalian   1
10. Amoxicillin lactate dehydrogenase activity Amoxicillin results in decreased lactate dehydrogenase activity 1: Danio rerio Embryo, Nonmammalian   1
11. Amoxicillin-Potassium Clavulanate Combination positive regulation of cytosolic calcium ion concentration Amoxicillin-Potassium Clavulanate Combination results in increased positive regulation of cytosolic calcium ion concentration 1: Homo sapiens Hep G2 Cells   1
12. Amoxicillin-Potassium Clavulanate Combination positive regulation of reactive oxygen species biosynthetic process Amoxicillin-Potassium Clavulanate Combination results in increased positive regulation of reactive oxygen species biosynthetic process 1: Homo sapiens Hep G2 Cells   1
13. Ampicillin cell growth Ampicillin affects cell growth 1: Homo sapiens Monocytes | Cell Line   1
14. beta-Lactams cell death beta-Lactams results in increased cell death 1: Homo sapiens HeLa Cells   1
15. Carbenicillin positive regulation of urine volume Carbenicillin results in increased positive regulation of urine volume 1: Rattus norvegicus Kidney   1
16. Carbenicillin membrane lipid catabolic process Carbenicillin affects membrane lipid catabolic process Kidney   1
17. Cefamandole leukocyte chemotaxis Cefamandole results in decreased leukocyte chemotaxis 1: Homo sapiens Neutrophils   1
18. Cefazolin drug transport across blood-brain barrier Cefazolin results in decreased drug transport across blood-brain barrier 1: Rattus norvegicus Blood-Brain Barrier   1
19. Cefazolin drug transport across blood-brain barrier Acetic Acid [Cefazolin results in decreased drug transport across blood-brain barrier] which results in decreased transport of Acetic Acid 1: Rattus norvegicus Blood-Brain Barrier   1
20. Cefazolin drug transport across blood-brain barrier Salicylic Acid [Cefazolin results in decreased drug transport across blood-brain barrier] which results in decreased transport of Salicylic Acid 1: Rattus norvegicus Blood-Brain Barrier   1
21. cefepime response to oxidative stress Amikacin cefepime inhibits the reaction [Amikacin results in increased response to oxidative stress] 1: Mus musculus Liver
2 genes: CAT | MT2
1
22. cefepime negative regulation of heart rate cefepime results in increased negative regulation of heart rate 1: Danio rerio Heart   1
23. Cefmenoxime embryonic morphogenesis Cefmenoxime affects embryonic morphogenesis 1: Danio rerio Embryo, Nonmammalian 1 gene: HTR2B 1
24. Cefmenoxime regulation of heart looping Cefmenoxime results in decreased regulation of heart looping 1: Danio rerio Heart   1
25. cefminox embryonic morphogenesis cefminox affects embryonic morphogenesis 1: Danio rerio Embryo, Nonmammalian   1
26. cefodizime cell proliferation cefodizime results in increased cell proliferation Lymphocytes   1
27. Cefoperazone leukocyte chemotaxis Cefoperazone results in decreased leukocyte chemotaxis Neutrophils   1
28. Cefoperazone carbonate dehydratase activity Cefoperazone results in decreased carbonate dehydratase activity 1: Rattus norvegicus Liver   1
29. Cefoperazone carbonate dehydratase activity negative regulation of lyase activity [Cefoperazone results in decreased carbonate dehydratase activity] which results in increased negative regulation of lyase activity 1: Rattus norvegicus Liver   1
30. Cefoperazone negative regulation of lyase activity carbonate dehydratase activity [Cefoperazone results in decreased carbonate dehydratase activity] which results in increased negative regulation of lyase activity 1: Rattus norvegicus Liver   1
31. Cefoperazone carbonate dehydratase activity Cefoperazone affects carbonate dehydratase activity 1: Rattus norvegicus Eye   1
32. Cefoperazone carbonate dehydratase activity regulation of lyase activity [Cefoperazone affects carbonate dehydratase activity] which affects regulation of lyase activity 1: Rattus norvegicus Eye   1
33. Cefoperazone regulation of lyase activity carbonate dehydratase activity [Cefoperazone affects carbonate dehydratase activity] which affects regulation of lyase activity 1: Rattus norvegicus Eye   1
34. Cefotaxime cell chemotaxis Cefotaxime results in decreased cell chemotaxis     1
35. Cefotaxime apoptotic process Cefotaxime results in increased apoptotic process 1: Homo sapiens Peritoneum | Epithelial Cells
2 genes: BAX | TP53
1
36. Cefotaxime leukocyte chemotaxis Cefotaxime results in decreased leukocyte chemotaxis 1: Homo sapiens Neutrophils 1 gene: IL10 1
37. Cefotaxime negative regulation of heart rate Cefotaxime results in increased negative regulation of heart rate 1: Danio rerio Heart   1
38. Cefotaxime regulation of heart looping Cefotaxime results in decreased regulation of heart looping 1: Danio rerio Heart   1
39. Cefotetan leukocyte chemotaxis Cefotetan results in increased leukocyte chemotaxis 1: Homo sapiens Neutrophils   1
40. Cefotiam membrane lipid catabolic process Cefotiam results in increased membrane lipid catabolic process 1: Rattus norvegicus Kidney Cortex   1
41. Cefotiam membrane lipid catabolic process Vitamin E Vitamin E inhibits the reaction [Cefotiam results in increased membrane lipid catabolic process] 1: Rattus norvegicus Kidney Cortex   1
42. Cefotiam membrane lipid catabolic process Catechin Catechin inhibits the reaction [Cefotiam results in increased membrane lipid catabolic process] 1: Rattus norvegicus Kidney Cortex   1
43. Cefotiam embryonic morphogenesis Cefotiam affects embryonic morphogenesis 1: Danio rerio Embryo, Nonmammalian   1
44. Cefoxitin cell chemotaxis Cefoxitin results in increased cell chemotaxis     1
45. Cefoxitin leukocyte chemotaxis Cefoxitin results in decreased leukocyte chemotaxis 1: Homo sapiens Neutrophils   1
46. cefpirome regulation of heart looping cefpirome results in decreased regulation of heart looping 1: Danio rerio Heart   1
47. Ceftazidime negative regulation of heart rate Ceftazidime results in increased negative regulation of heart rate 1: Danio rerio Heart   1
48. Ceftazidime regulation of heart looping Ceftazidime results in decreased regulation of heart looping 1: Danio rerio Heart   1
49. ceftiofur carbonate dehydratase activity ceftiofur results in decreased carbonate dehydratase activity 1: Ovis aries Blood   1
50. Ceftriaxone response to oxidative stress Ceftriaxone results in increased response to oxidative stress 1: Mus musculus Liver
2 genes: CAT | SLC7A11
1
1–50 of 131 results.